Microheater Comparative Study of S-Shape, Serpentine, and Dual C Configurations for Microfluidic Applications

Microheater Comparative Study of S-Shape, Serpentine, and Dual C Configurations for Microfluidic Applications

This study investigates the performance of microheaters, focusing on three different configurations: s-shape, serpentine, and dual C shapes for microfluidic applications. Each configuration is characterized by electrical, thermal, and structural simulations via the ANSYS tool. The electrical analysi...

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Bibliographic Details
Published in:2024 IEEE 14TH SYMPOSIUM ON COMPUTER APPLICATIONS & INDUSTRIAL ELECTRONICS, ISCAIE 2024
Main Authors: Nasarudin, Wan Najmi Nuqman Wan; Husaini, Yusnira; Yaakub, Tuan Norjihan Tuan
Format: Proceedings Paper
Language:English
Published: IEEE 2024
Subjects:
Computer Science; Engineering
Online Access:https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001283898700002
Description
Summary:This study investigates the performance of microheaters, focusing on three different configurations: s-shape, serpentine, and dual C shapes for microfluidic applications. Each configuration is characterized by electrical, thermal, and structural simulations via the ANSYS tool. The electrical analysis reveals distinct variations in joule heat generation, while steady-state thermal analysis provides insights into temperature distribution and heat dissipation profiles. Static structural analysis elucidates variations in deformation, stress, and strain energy accumulation, offering critical insights into structural integrity and stability. By using the Taguchi Method, the main effect plots show how electrical parameters affect thermal and structural behavior. Higher current levels are linked to more deformation and stress. The S shape emerges as the most promising design, demonstrating consistent thermal and structural responses and lower levels of deformation and stress.
ISSN:2836-4864
DOI:10.1109/ISCAIE61308.2024.10576212

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